JP2014033464A - Wireless communication terminal, communication system, controller, communication method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow a wireless communication terminal having a plurality of types of communication interfaces to select a more desirable communication interface.SOLUTION: The wireless communication terminal has first means, second means, and third means. The first means receives from a controller an instruction including a plurality of communication interfaces each of which corresponds to at least one of a plurality of wireless access systems, a collation rule for identifying a communication flow, and a processing rule indicating packets belonging to the communication flow is transferred to a first communication interface corresponding to the wireless access system determined by the controller. The second means can start the first communication interface corresponding to the instruction received by the first means through a second communication interface which is in a communicable state. The third means can transfer the packets to the second communication interface on the basis of the instruction.

Description

  The present invention relates to a wireless communication terminal, a communication system, a control device, a communication method, and a program, and more particularly, to a wireless communication terminal, a communication system, a control device, a communication method, and a program that perform communication using a plurality of wireless access methods.

  In recent years, mobile terminals can be connected to multiple types of RAT (Radio Access Technology). For example, a mobile terminal uses UTRAN (UMTS Terrestrial Radio Access Network) and 3GPP access including LTE (Long Term Evolution), WLAN (Wireless Local Area Network) including 802.11g and 802.11n, etc. Is possible.

  The mobile terminal performs communication according to the access environment by appropriately changing the RAT used for communication.

  Regarding handover of a mobile terminal, Patent Document 1 (Japanese Patent No. 4703657) discloses the following technique. The server existing on the network of the same document refers to the location information of the mobile terminal, and notifies the mobile terminal of a list of access points (APs), authentication servers, etc. existing within a predetermined geographical area. The server notifies the mobile terminal of a list of APs and authentication servers existing in an area adjacent to the network area where the mobile terminal is currently staying. The mobile terminal performs a handover from the currently staying network area to an adjacent area. Prior to the execution of the handover, the mobile terminal refers to the notified list and performs authentication in advance with the AP or the authentication server. By performing authentication prior to handover, authentication at the time of executing handover can be omitted. Therefore, it is described that the mobile terminal can execute handover at high speed.

Japanese Patent No. 4703657

The following analysis is given by the present invention.
In an environment where a mobile terminal can connect to a plurality of RATs, there are the following problems when determining the RAT to which the mobile terminal is connected.

  Although the user of the mobile terminal can manually switch the RAT according to the access environment, it is troublesome to manually operate each time the environment changes.

  In addition, it is conceivable that the mobile terminal holds a policy relating to RAT selection in advance, but since the access environment changes day by day, it is difficult to select a RAT so as to respond to a change in the access environment with a preset policy. It is.

  In Patent Document 1 described above, the server notifies the mobile terminal of a list of access points and the like existing in the adjacent area of the network area where the mobile terminal stays. However, there is a problem that the mobile terminal cannot determine the RAT to be connected only with the list.

  The present invention has been made in view of the above circumstances, and the object of the present invention is to provide a configuration or means that allows a wireless communication terminal having a plurality of types of communication interfaces to select a more desirable communication interface. It is to provide.

  According to the first aspect of the present invention, each of a plurality of communication interfaces corresponding to at least one of a plurality of radio access methods, a matching rule for identifying a communication flow, and a packet belonging to the communication flow And a first means for receiving from the control device an instruction including a processing rule indicating transfer to the first communication interface corresponding to the wireless access method determined by the control device. Second means capable of activating the first communication interface corresponding to the instruction received by the first means via two communication interfaces, and the second communication based on the instruction. And a third means capable of being transferred to the interface.

  According to a second aspect of the present invention, a control device that controls a radio access scheme to which a radio communication terminal is connected, a plurality of communication interfaces each corresponding to at least one of a plurality of radio access schemes, and a communication flow An instruction including a matching rule for identifying a packet and a processing rule indicating that a packet belonging to the communication flow is transferred to a first communication interface corresponding to a radio access scheme determined by the control device. And second means capable of activating the first communication interface corresponding to the instruction received by the first means via the second communication interface in a communicable state. And based on the instruction, the packet can be transferred to the communication interface corresponding to the radio access method determined by the control device. And the radio communication terminal and a third means, the communication system including a provided such.

  According to a third aspect of the present invention, the first means for receiving the status of the wireless communication terminal that changes with the movement of the wireless communication terminal and the wireless access method to which the wireless communication terminal is connected are determined. 2 means, a matching rule for identifying a communication flow, and a processing rule indicating that a packet belonging to the communication flow is transferred to the first communication interface corresponding to the determined radio access scheme A third means for transmitting an instruction to the wireless communication terminal via the second communication interface in a communicable state, and instructing the wireless communication terminal to start the first communication interface; A control device is provided.

  According to a fourth aspect of the present invention, there is provided a communication method by a wireless communication terminal including a plurality of communication interfaces corresponding to at least one of a plurality of wireless access methods, the collation rule for identifying a communication flow, An instruction including a processing rule indicating that a packet belonging to the communication flow is transferred to the first communication interface corresponding to the wireless access method determined by the control device is received from the control device and is in a communicable state. Communication that activates the first communication interface corresponding to the instruction received by the first means via a second communication interface and transfers the packet to the second communication interface based on the instruction A method is provided. This method is associated with a specific machine, which is a wireless communication terminal including a plurality of communication interfaces corresponding to at least one of a plurality of wireless access methods.

According to a fifth aspect of the present invention, in a wireless communication terminal including a plurality of communication interfaces corresponding to at least one of a plurality of wireless access methods,
An instruction including a matching rule for identifying a communication flow, and a processing rule indicating that a packet belonging to the communication flow is transferred to a first communication interface corresponding to a wireless access method determined by a control device, A process received from the control device, a process of starting the first communication interface corresponding to the instruction received by the first means via a second communication interface in a communicable state, and the instruction Based on this, there is provided a program for executing a process of transferring the packet to the second communication interface. This program can be recorded on a computer-readable storage medium. That is, the present invention can be embodied as a computer program product.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to make a radio | wireless communication terminal provided with multiple types of communication interfaces select a more desirable communication interface.

It is a figure which shows the example of the communication system of the 1st Embodiment of this invention. It is a figure which shows the structural example of the radio | wireless communication terminal of the 1st Embodiment of this invention. It is a sequence diagram which shows the operation example of the 1st Embodiment of this invention. It is a figure which shows the structural example of the control apparatus of the 2nd Embodiment of this invention. It is a figure which shows the structural example of policy DB of the control apparatus in the 2nd Embodiment of this invention. It is a figure which shows the structural example of policy DB of the control apparatus in the 2nd Embodiment of this invention. It is a figure which shows the structural example of policy DB of the control apparatus in the 2nd Embodiment of this invention. It is a figure which shows the structural example of policy DB of the control apparatus in the 2nd Embodiment of this invention. It is a figure explaining the technique relevant to the 3rd Embodiment of this invention. It is a figure explaining the technique relevant to the 3rd Embodiment of this invention. It is a figure which shows the example of the communication system of the 3rd Embodiment of this invention. It is a figure which shows the structural example of the radio | wireless communication terminal in the 3rd Embodiment of this invention. It is a figure which shows the structural example of the radio | wireless communication terminal in the 3rd Embodiment of this invention. It is a figure which shows the structural example of the control apparatus in the 3rd Embodiment of this invention. It is a sequence diagram which shows the operation example of the 3rd Embodiment of this invention. It is a sequence diagram which shows the operation example of the 4th Embodiment of this invention. It is a figure which shows the structural example of policy DB of the control apparatus in the 5th Embodiment of this invention. It is a figure which shows the structural example of policy DB of the control apparatus in the 5th Embodiment of this invention. It is a figure which shows the structural example of policy DB of the control apparatus in the 6th Embodiment of this invention.

Next, embodiments of the present invention will be described in detail with reference to the drawings.
[First Embodiment]
As shown in FIG. 1, the first embodiment can be realized by a configuration including a wireless communication terminal 1, a control device 2, a network 3, and a RAT 4. Note that reference numerals in the drawings are added as examples for helping understanding, and are not intended to limit the present invention to the illustrated embodiments.

  The wireless communication terminal 1 has a communication interface corresponding to a plurality of wireless access methods (RAT4 in FIG. 1). The wireless communication terminal 1 communicates with the network 3 by connecting to any of the RATs (UTRAN4-1, WLAN4-2, WLAN4-3, WLAN4-4) illustrated as an example in FIG. The wireless communication terminal 1 may communicate with the network 3 by connecting to a plurality of RATs (for example, UTRAN 4-1 and WLAN 4-2) among the RATs shown as an example in FIG.

  The wireless communication terminal 1 is a device having a communication function such as a mobile phone, a personal computer, or a mobile router. The mobile router is, for example, a terminal that relays a 3G line of a mobile phone or a wireless LAN network.

  The RAT 4 is a radio access network for connecting the radio communication terminal 1 to the network 3. Although FIG. 1 shows UTRAN and WLAN as examples of RAT, the type of RAT of the present invention is not limited to the example of FIG. For example, the RAT includes a radio access network such as LTE and WiMAX (Worldwide Interoperability for Microwave Access).

  The control device 2 determines the RAT to which the wireless communication terminal 1 is connected and instructs the wireless communication terminal 1 to perform communication using the determined RAT. For example, the control device 2 is installed on the network 3, and the wireless communication terminal 1 is connected to the RAT 4 and communicates with the control device 2 via the network 3. The control device 2 is a device that is physically separated from the wireless communication terminal 1. In addition, the position where the control apparatus 2 is installed is not limited to FIG. 1 and may be installed in an access network for each RAT. The control device 2 may be installed in a data center that can communicate with the network 3.

  FIG. 2 shows a configuration example of the wireless communication terminal 1. The wireless communication terminal 1 includes a plurality of communication interfaces 10, a control unit 11, and a communication unit 12. Note that the configuration shown in FIG. 2 is an example, and the configuration of the wireless communication terminal 1 is not limited to the example of FIG.

  The communication interface 10 is an antenna, for example. Each communication interface 10 corresponds to at least one of a plurality of RATs. For example, the communication interface 10 corresponds to a specific RAT (for example, UTRAN4-1), and the wireless communication terminal 1 connects to a specific RAT (for example, UTRAN4-1) via the communication interface 10. Further, for example, the communication interface 10 corresponds to a plurality of RATs (for example, WLAN 4-2, 4-3), and the wireless communication terminal 1 connects to one of the corresponding plurality of RATs via the communication interface 10. .

  The control unit 11 includes a monitor unit 111, a notification unit 112, and an access management unit 113. The monitor unit 111 monitors a status that changes according to the movement of the wireless communication terminal 1. The status that changes according to the movement is, for example, the position of the wireless communication terminal 1, the RAT that can be used by the wireless communication terminal 1, the radio wave reception intensity of each communication interface, and the like. For example, the monitor unit 111 searches for the RAT 4 that can be used around the wireless communication terminal 1 via each communication interface 10. The monitor unit 111 searches for available RATs 4 through all the communication interfaces 10, for example. The monitor unit 111 may search for an available RAT 4 via an active interface among a plurality of communication interfaces. The monitor unit 111 may search for available RATs via a communication interface instructed by the access management unit 113. For example, the monitor unit 111 searches for an available RAT 4 based on the radio wave status corresponding to each RAT 4.

  The monitor unit 111 may measure information related to the position of the wireless communication terminal 1 and information related to radio wave conditions such as radio wave reception intensity via the communication interface 10. The information regarding the position of the wireless communication terminal 1 is, for example, GPS information or a cell ID (cell ID corresponding to the cover area of the wireless base station).

  The monitor unit 111 monitors the status of the wireless communication terminal 1 at a predetermined timing. For example, the monitor unit 111 monitors the status of the wireless communication terminal 1 at a predetermined cycle. The monitor unit 111 may monitor the status of the terminal when instructed by the access management unit 113.

  The monitor unit 111 may periodically monitor the movement amount of the wireless communication terminal 1 and monitor the status such as RAT that can be used only when the movement amount exceeds a predetermined threshold value. If monitoring operations such as scanning of RAT information are frequently performed, the power consumption of the wireless communication terminal 1 increases. However, when the movement amount of the wireless communication terminal 1 is small, the possibility that the situation of the wireless communication terminal 1 will change is low, so there is little need to frequently perform the monitoring operation. Therefore, the power consumption of the wireless communication terminal 1 can be suppressed by controlling the period and frequency of the monitoring operation according to the movement amount of the wireless communication terminal 1.

  The notification unit 112 notifies the control device 2 via the communication unit 12 of information related to the status of the wireless communication terminal 1 monitored by the monitor unit 111 (hereinafter referred to as status information). The notification unit 112 notifies the control device 2 of status information through the communication interface 10 corresponding to the RAT with which the wireless communication terminal 1 has established a link. The notification unit 112 may notify the control device 2 of the identifier of the wireless communication terminal 1 together with the status information. For example, the notification unit 112 notifies the control device 2 of information relating to a radio wave condition such as an identifier of a detected RAT and a received electric field strength as status information. The RAT identifier is, for example, an SSID (Service Set Identifier) or a PLMN (Public Land Mobile Network) identifier. Further, the notification unit 112 may notify the control device 2 of information regarding the position of the wireless communication terminal 1 as status information. The information regarding the position of the wireless communication terminal 1 is, for example, GPS information or a cell ID (cell ID corresponding to the cover area of the wireless base station).

  The communication unit 12 transmits / receives data via a communication interface. The communication unit 12 communicates with the control device 2 via a communication interface. For example, the communication unit 12 refers to the network address of the control device 2 preset in the wireless communication terminal 1 and communicates with the control device 2. The communication unit 12 is a communication line of a network operator with which the wireless communication terminal 1 is contracted. When the wireless communication terminal 1 is connected to a RAT that attempts to establish a link at the time of startup or the like, the address of the control device 2 from the network side May be obtained. For example, when the communication unit 12 requests a RAT radio station that has established a link to generate a logical channel (for example, a bearer), the communication unit 12 also requests the address (IP address or the like) of the control device 2. The communication unit 12 may access the control device 2 using a predetermined URL (Uniform Resource Locator) and establish a VPN (Virtual Private Network) with the control device 2. Note that the method by which the communication unit 12 communicates with the control device 2 is not limited to the above method.

  For example, the control device 2 determines the RAT used by the wireless communication terminal 1 based on the status information notified from the wireless communication terminal 1. The control device 2 transmits an instruction to communicate with the determined RAT to the wireless communication terminal 1.

  Note that the control device 2 may determine the RAT used by the wireless communication terminal 1 based on information notified from another device, not the status information notified from the wireless communication terminal 1. For example, in the mobile IP technology defined by RFC 2002 or the like, the control device 2 can acquire the status information of the wireless communication terminal 1 without receiving information from the wireless communication terminal 1. In the mobile IP, the home agent (HA) uses an address (Home Address) unique to the wireless communication terminal 1 and an address (Care-of Address) for specifying the destination network of the wireless communication terminal 1, The position of the wireless communication terminal 1 is managed. The wireless communication terminal 1 is connected to a foreign agent (FA) according to the movement, and acquires a care-of address from the FA. That is, the notice address changes according to the movement of the wireless communication terminal 1. The HA receives the home address and the notice address from the wireless communication terminal 1 or FA and manages the position of the wireless communication terminal 1. The control device 2 may acquire the position information of the wireless communication terminal 1 from the HA and determine the RAT used by the wireless communication terminal 1 based on the position information.

  The control device 2 may determine a RAT to which the wireless communication terminal 1 is connected and specify a connection device (for example, a WiFi access point) for connecting to the RAT. The control device 2 may instruct the wireless communication terminal 1 to connect to the identified connection device. For example, the control device 2 notifies the wireless communication terminal 1 of the SSID of the WiFi access point and instructs to connect to the access point of the SSID.

  The access management unit 113 manages the connection between the communication interface 10 and the RAT 4. Based on an instruction from the control device 2, the access management unit 113 controls the wireless communication terminal 1 to communicate using a communication interface corresponding to the instructed RAT.

  Note that the control unit 11 of the wireless communication terminal 1 can also be configured by an application program. For example, the wireless communication terminal 1 may download an application program having a function corresponding to the control unit 11 from a server on the network. For example, the server that distributes the application program to the wireless communication terminal 1 communicates with the wireless communication terminal 1 via the network 3 of the communication system illustrated in FIG. 1, and sends the application program corresponding to the control unit 11 to the wireless communication terminal 1. It has a function to distribute.

  FIG. 3 is a sequence diagram showing an operation example of the embodiment of the present invention. 3 is merely an example, and the operation of the present invention is not limited to FIG.

  The wireless communication terminal 1 establishes a link with a predetermined RAT (for example, UTRAN4-1) (step S001). The wireless communication terminal 1 establishes a link with a predetermined RAT, for example, at the start of operation (for example, when the power is turned on). At that time, the wireless communication terminal 1 establishes a link with the RAT through the communication interface 10 corresponding to the predetermined RAT. The predetermined RAT is, for example, a communication line of a network operator with whom the wireless communication terminal 1 is contracted, and is a RAT that attempts to establish a link when the wireless communication terminal 1 is activated.

  The wireless communication terminal 1 monitors the status of the wireless communication terminal 1 at a predetermined timing (step S002).

  The wireless communication terminal 1 notifies the control device 2 of the monitored status (status information) via a predetermined RAT that has already been established (step S003).

  The control device 2 determines the RAT used by the wireless communication terminal 1 based on the received status information (step S004). The control device 2 transmits an instruction including the determined RAT or an instruction to use the determined RAT to the wireless communication terminal 1 (step S005).

  Based on the instruction from the control device 2, the wireless communication terminal 1 establishes a link with the instructed RAT, and communicates using the communication interface corresponding to the RAT (step S006).

  According to the configuration example shown in the above embodiment, the present invention makes it easy for the wireless communication terminal 1 to connect the RAT to be connected by following the instruction from the control device 2 even if the wireless communication terminal 1 supports a plurality of RATs. Judgment can be made. Since the RAT to be connected is determined according to the instruction from the control device 2, the user of the wireless communication terminal 1 does not have to perform a complicated operation of manually selecting the RAT.

  Further, since the RAT to which the wireless communication terminal 1 is connected is determined based on the situation of the wireless communication terminal 1, it is possible to use a RAT according to the access environment of the wireless communication terminal 1 or a more desirable RAT.

  In this embodiment, the wireless communication terminal 1 directly notifies the control device 2 of the status information. However, the method of notifying the control device 2 of the status information is not limited to this. For example, a radio base station of a predetermined RAT (for example, UTRAN4-1) receives, from the radio communication terminal 1, radio wave reception intensity from a neighboring radio base station monitored via a communication interface supported by the radio communication terminal 1. Then, the received information may be notified to the control device 2.

[Second Embodiment]
Subsequently, a second embodiment of the present invention will be described with reference to the drawings. A configuration example of a communication system according to the second embodiment is the same as that shown in FIG. That is, the second embodiment of the present invention can be realized by a configuration including the wireless communication terminal 1, the control device 2, the network 3, and the RAT 4.

  In the second embodiment, the configuration of the wireless communication terminal 1 is the same as that in FIG. In the second embodiment, the control device 2 determines the RAT based on the status information that changes as the wireless communication terminal 1 moves. Since other configurations and operations are the same as those in the first embodiment, detailed description thereof is omitted.

  FIG. 4 shows a configuration of the control device 2 in the second embodiment. The control device 2 of the present embodiment includes a communication unit 20, a control unit 21, and a policy DB (Data Base) 22.

  The communication unit 20 communicates with the wireless communication terminal 1. The communication unit 20 receives status information transmitted from the wireless communication terminal 1, for example. In addition, the communication unit 20 transmits an instruction to communicate with the RAT determined based on the received status information to the wireless communication terminal 1.

  The control unit 21 determines the RAT to which the wireless communication terminal 1 is connected based on the status information received from the wireless communication terminal 1. The control unit 21 determines the RAT with reference to the policy DB 22.

  FIG. 5 shows a configuration example of the policy DB 22. FIG. 5 is an example, and the configuration of the policy DB 22 is not limited to the example of FIG.

  In FIG. 5, the policy DB 22 has a RAT identifier to be selected for each RAT as a rule for determining the RAT (“selection rule” in the figure). Note that the policy DB 22 holds, for example, data having the structure shown in FIG. 5 for each wireless communication terminal 1. The policy DB 22 holds, for example, data having the structure shown in FIG. 5 for each identifier of the wireless communication terminal 1 (for example, IMSI (International Mobile Subscriber Identity)).

  The control unit 21 refers to the status information received from the wireless communication terminal 1 and the policy DB 22 to determine the RAT to which the wireless communication terminal 1 is connected. The status information includes, for example, an RAT identifier detected by the wireless communication terminal 1. The identifier of RAT is, for example, a PLMN (Public Land Mobile Network) identifier that is identification information such as UTRAN.

  For example, the control unit 21 searches the policy DB 22 for data corresponding to the identifier of the wireless communication terminal 1 that transmitted the status information. The control unit 21 compares the RAT identifier included in the received status information with the identifier defined in the selection rule of the policy DB 22. When the identifier included in the status information matches the identifier defined as the selection rule, the control unit 21 determines the RAT corresponding to the matched identifier as the RAT to which the wireless communication terminal 1 is connected. In the example of FIG. 5, when the status information includes the SSID (A) that is the identifier of the WLAN 4-3 in FIG. 1, the control unit 21 instructs the wireless communication terminal 1 to connect to the WLAN 4-3. .

  When the status information includes information on the radio wave condition such as electric field strength, the control unit 21 may determine the RAT with reference to the information. For example, when the identifier included in the status information matches the identifier defined in the selection rule, the control unit 21 selects the matched identifier having a good radio wave condition.

  The policy DB 22 may have a priority. FIG. 6 shows an example where the policy DB 22 has priority. FIG. 6 is an example, and the configuration of the policy DB 22 is not limited to the configuration of FIG. The policy DB 22 has, for example, a priority for RAT (access method) and a priority for each RAT selection rule (that is, for each RAT identifier). The policy DB 22 can also hold a database having the structure of FIG. 6 for each wireless communication terminal 1.

  For example, when the status information received from the wireless communication terminal 1 includes information on a plurality of RATs, the control unit 21 refers to the priority for each RAT and selects a RAT having a high priority.

  For example, when the status information includes a plurality of identifiers for a certain RAT, the control unit 21 refers to the priority for the selection rule and selects an access network corresponding to the identifier with a high priority.

  In the example of FIG. 6, when the status information includes a UTRAN identifier and a WLAN identifier, the control unit 21 instructs the wireless communication terminal 1 to connect to a WLAN having a high priority. When the status information includes the SSID (B) that is the identifier of the WLAN 4-2 and the SSID (A) that is the identifier of the WLAN 4-3, the control unit 21 is connected to the WLAN 4-3 having a high priority. The wireless communication terminal 1 is instructed.

  The control unit 21 may select RAT according to the type of communication flow. FIG. 7 shows an example of the policy DB 22 when the control unit 21 selects a RAT according to the type of communication flow. 7 is an example, and the configuration of the policy DB 22 is not limited to the configuration of FIG.

  The policy DB 22 defines RATs that are candidates for selection for each type of communication flow. The policy DB 22 may define a plurality of RATs as selection candidates for each type of communication flow, and each RAT may have a priority.

  In the example of FIG. 7, when the control unit 21 confirms from the status information that the wireless communication terminal 1 can be connected to both the UTRAN and the WLAN, the web communication is performed using the WLAN, and the VoIP (Voice) For over IP) communication, the wireless communication terminal 1 is instructed to communicate using UTRAN. According to the instruction, the wireless communication terminal 1 communicates using a communication interface corresponding to WLAN for Web communication, and communicates using a communication interface corresponding to UTRAN for VoIP communication. That is, the wireless communication terminal 1 switches the communication interface for each communication flow. Also in this case, the policy DB 22 can hold a database having the structure of FIG. 7 for each wireless communication terminal 1.

  The control unit 21 may select RAT based on the position information of the wireless communication terminal 1. FIG. 8 shows an example of the policy DB 22 when the control unit 21 selects a RAT based on position information. FIG. 8 is an example, and the configuration of the policy DB 22 is not limited to the configuration of FIG.

  The position information in FIG. 8 is, for example, GPS information and cell ID. When the position information is GPS information, the position of the wireless communication terminal 1 is represented by, for example, latitude, longitude, and altitude. When the position information is a cell ID, the position of the wireless communication terminal 1 is estimated by, for example, the cell ID and the radio wave reception intensity measured by the wireless communication terminal 1 with respect to the cell ID. For example, the control unit 21 estimates how far the wireless communication terminal 1 is from the center of the cell based on the radio wave reception intensity, and estimates the position of the wireless communication terminal 1. In the case of a cell ID, not a single cell ID (which may be a combination of a single cell ID and radio wave reception intensity) but a plurality of cell IDs (which may be a combination of a plurality of cell IDs and radio wave reception intensity) is used. The position may be estimated. Also in this case, the policy DB 22 can hold a database having the structure of FIG. 8 for each wireless communication terminal 1.

  In the example of FIG. 8, the policy DB 22 includes a database in which each position information is associated with a RAT that is a candidate for connection to the wireless communication terminal 1. For example, the policy DB 22 manages RATs that can be used by the wireless communication terminal 1 for each piece of position information.

  For example, a WiFi access point is arranged at a predetermined position for each network operator. Therefore, the control device 2 can recognize the correspondence between the location information and the RAT corresponding to the access point by acquiring information related to the arrangement of the access point from the network operator in advance. The wireless communication terminal 1 can use an access point of a contracted network operator. Therefore, the control device 2 refers to the contract information between the wireless communication terminal 1 and the network operator and the location of the access point of the network operator, so that the position information and the available RAT are determined for each wireless communication terminal 1. The correspondence relationship can be recognized, and the policy DB 22 shown in FIG. 8 can be constructed. The control device 2 may acquire information regarding the network operator with which the wireless communication terminal 1 is contracted from the wireless communication terminal 1 or may be acquired from the network operator.

  The control unit 21 specifies the RAT corresponding to the position information received from the wireless communication terminal 1 with reference to the policy DB 22. The control unit 21 determines the RAT to which the wireless communication terminal 1 is connected from the RAT specified based on the position information. For example, the control unit 21 may determine the RAT from the RAT candidates specified based on the position information by the method described with reference to FIGS. 6 and 7 (method based on the priority and communication flow).

  The control unit 21 can determine the RAT to which the wireless communication terminal 1 is connected by any of the methods described with reference to FIGS. 5, 6, 7, and 8. Further, the control unit 21 may determine the RAT by arbitrarily combining the methods described with reference to FIGS. 5, 6, 7, and 8.

  As described above, the control device 2 can easily select the RAT according to the access environment of the wireless communication terminal 1 by determining the RAT to which the wireless communication terminal 1 is connected based on the policy DB 22.

  Moreover, the network traffic of the wireless communication terminal 1 can be controlled by the network operator by switching the RAT to which the wireless communication terminal 1 is connected according to the communication flow of the control device 2. The network operator can distribute the network traffic of the wireless communication terminal 1 to a plurality of RATs by switching the RAT to which the wireless communication terminal 1 is connected. As a result, the network operator can distribute the traffic that has been increasing in recent years.

[Third Embodiment]
Subsequently, a third embodiment of the present invention will be described with reference to the drawings. In 3rd Embodiment, the structure of a radio | wireless communication terminal and a control apparatus differs from the above-mentioned embodiment.

  The third embodiment shows an example in which the present invention is implemented by improving a technique called OpenFlow, which is a centralized control type network architecture.

  The OpenFlow technique will be described with reference to FIGS. OpenFlow recognizes communication as an end-to-end flow, and performs path control, failure recovery, load balancing, and the like on a per-flow basis. FIG. 9 shows an outline of a communication system configured by the open flow technology. A flow is a series of communication packet groups having predetermined attributes, for example. The OpenFlow switch 600 is a network switch that employs OpenFlow technology. The OpenFlow controller 700 is an information processing apparatus that controls the OpenFlow switch 600.

  The OpenFlow switch 600 communicates with the OpenFlow controller via a secure channel 701 set with the OpenFlow controller 700. The OpenFlow controller 700 sets the flow table 601 of the OpenFlow switch 600 via the secure channel 701. The secure channel 701 is a communication path on which measures for preventing eavesdropping or falsification of communication between the switch and the controller are taken.

  FIG. 10 shows a configuration example of each entry (flow entry) in the flow table 601. The flow entry includes a matching rule for matching information (for example, a destination IP address and VLAN ID) included in the header of the packet received by the switch, statistical information (Counters) that is statistical information for each packet flow, It consists of instructions that specify how to process packets that match the matching rules.

  When the OpenFlow switch 600 receives the packet, the OpenFlow switch 600 refers to the flow table 601. The OpenFlow switch 600 searches for a flow entry that matches the header information of the received packet. When an entry that matches the header information of the received packet is found, the OpenFlow switch 600 processes the received packet according to the processing method defined in the instruction field of the found entry. Examples of processing methods include “transfer received packet from predetermined port”, “discard received packet”, “rewrite part of header of received packet and transfer from predetermined port”, etc. .

  On the other hand, if no entry matching the header information of the received packet is found, the OpenFlow switch 600 transfers the received packet to the OpenFlow controller 700 via the secure channel 701, for example. The OpenFlow switch 600 requests the controller to set a flow entry that defines the received packet processing method by transferring the received packet.

  The OpenFlow controller 700 determines a received packet processing method and sets a flow entry including the determined processing method in the flow table 601. Thereafter, the OpenFlow switch 600 processes subsequent packets belonging to the same flow as the received packet according to the set flow entry.

  FIG. 11 shows an example of a communication system according to the third embodiment of the present invention, which is configured by improving the above OpenFlow technology.

  The transfer device 500 includes the function of the open flow switch 600. The network 300 is a communication network that includes at least a part of the transfer device 500. The control device 200 includes the function of the open flow controller 700.

  The wireless communication terminal 100 includes a function corresponding to the open flow switch 600. Note that the function corresponding to the OpenFlow switch 600 may be realized by either hardware or software. The wireless communication terminal 100 is a device having a communication function such as a mobile phone, a personal computer, a mobile router, and the like.

  FIG. 12 is a diagram illustrating a configuration example of the wireless communication terminal 100. Referring to FIG. 12, a configuration including a plurality of application units # 1- # N 101, a protocol stack unit 102, a packet transfer function unit 103, a plurality of ports 104, and a plurality of communication interfaces 105 is shown. Yes.

  The packet transfer function unit 103 includes functions corresponding to the OpenFlow switch 600 in part. The packet transfer function unit 103 has a plurality of ports 104. In the example of FIG. 12, the packet transfer function unit 103 has N (N is an integer) ports 104. Each communication interface 105 is associated with at least one of the plurality of ports 104, for example. The packet transfer function unit 103 transmits and receives data via the port 104.

  In the wireless communication terminal 100, a plurality of applications (application units # 1- # N 101) are operating. The application communicates with the network 300 via the RAT4.

  When an application transmits communication data to the network 300, the communication data is processed by the protocol stack unit 102 (for example, a protocol stack such as an OSI reference model) and processed into a packet with a predetermined protocol header or the like. The packet is transmitted from the communication interface 105 via the packet transfer function unit 103.

  The packet transfer function unit 103 transfers a packet from the port 104 in accordance with a packet processing rule (that is, a flow entry) set by the control device 200. The packet transferred from the port 104 is transmitted to the RAT access network corresponding to the interface via one of the communication interfaces 105. A packet received from the RAT access network by the communication interface 105 is sent to the application via the port 104.

  FIG. 13 shows a configuration example of the packet transfer function unit 103. Referring to FIG. 13, a monitor unit 111, a notification unit 112, a communication unit 130, a processing unit 131, an access management unit 132, an access management DB 133, a processing rule management unit 134, and a processing rule DB 135 are included. The configuration is shown.

  The communication unit 130 communicates with the control device 200. For example, the communication unit 130 sets up a secure channel 701 with the control device 200 so that the packet transfer function unit 103 receives the packet processing rule transmitted from the control device 200. For example, the communication unit 130 requests a packet processing rule from the control device 2 via the set secure channel 701.

  The communication unit 130 passes the packet processing rule received from the control device 2 to the processing rule management unit 134. The processing rule management unit 134 stores the packet processing rule received from the control device 200 in the processing rule DB 135.

  The processing unit 131 executes processing such as packet transfer and packet header rewriting according to the packet processing rules set by the control device 200. The search unit 136 searches for a packet processing rule that matches the packet among the packet processing rules stored in the processing rule DB 135. The search unit 136, for example, compares the packet content with a packet processing rule matching rule (that is, a matching rule), and searches for a processing rule including a matching rule that matches the packet content. For example, when the processing rule that matches the packet is not stored in the processing rule DB 135, the search unit 136 notifies the communication unit 130, and the communication unit 130 requests the control device 200 for the packet processing rule. The configuration of the packet processing rule is equivalent to the configuration shown in FIG.

  The process execution unit 137 processes the packet according to the processing method defined in the packet processing rule searched by the search unit 136. For example, the process execution unit 137 executes a process for transferring a packet from a predetermined port 104, a process for rewriting the contents of the packet, and the like.

  The monitor unit 111 and the notification unit 112 have functions equivalent to those in the above-described embodiment.

  The access management unit 113 manages the connection between the communication interface 105 and the RAT 4 using the access management DB 133. For example, the access management DB 133 holds a correspondence relationship between the communication interface 105 currently used by the wireless communication terminal 100 and the RAT to which the interface in use is connected. The access management unit 113 updates the access management DB 133 when the communication interface to be used is switched according to an instruction from the control device 200. The access management DB 133 may also manage information about RAT connection points (for example, WiFi access points) to which the communication interface is connected.

  As described above, each communication interface 105 is associated with at least one of the plurality of ports 104. Therefore, the access management unit 113 manages the correspondence relationship between the communication interface 105 and the port 104 using the access management DB 113. The access management DB 133 holds the correspondence relationship between the communication interface 105 and the port 104. Further, the access management DB 133 may hold a correspondence relationship between the communication interface 105 being used and a port corresponding to the interface. When the access management unit 113 switches the communication interface used in accordance with an instruction from the control device 200, the port used by the packet transfer function unit 103 is also changed. The access management unit 113 updates the access management DB 133 when the port used by the packet transfer function unit 103 is changed as the communication interface is switched. Note that the access management DB 133 may manage the correspondence between RAT connection points to which communication interfaces are connected and ports.

  The access management unit 113 refers to the access management DB 133 and transmits the correspondence between the port 104 and the communication interface 105, the port 104 being used, and the like to the control device 200. The port 104 being used is a port 104 corresponding to the communication interface 105 being used by the wireless communication terminal 100. The control device 200 receives these pieces of information to grasp the characteristics of the port 104 and the usage status of the port 104. For example, when requested by the control device 200, the access management unit 113 transmits these pieces of information.

  The OpenFlow technology described above has a function (Port Status) for notifying the controller of the status of the port of the switch and a function (Feature Request / Reply) for notifying the controller of the characteristics of the switch. The access management unit 113 and the notification unit 112 may use these functions when notifying the control device 200 of the correspondence between the port 104 and the communication interface 105, status information, and the like.

  The wireless communication terminal 100 may have a function of downloading a program module having a function corresponding to the packet transfer function unit 103. The wireless communication terminal 100 may use the downloaded program module as the packet transfer function unit 103.

  A transfer device 500 that transfers a packet on the network 300 has a configuration equivalent to the packet transfer function unit 103 of the wireless communication terminal 100 described above, except for the monitor unit 111, the notification unit 112, the access management unit 132, and the access management DB 133. The transfer device 500 processes a packet passing through the network 300 according to the packet processing rule set by the control device 200.

  FIG. 14 shows a configuration example of the control device 200. Referring to FIG. 14, a node communication unit 201, a control message processing unit 202, a calculation unit 203, a topology management unit 204, a location management unit 205, a policy DB 206, a DB management unit 207, and a processing rule DB 208 A configuration including a packet transfer function management unit 209 is shown. FIG. 14 is an exemplification, and the configuration of the control device 200 is not limited to FIG.

  The processing rule DB 208 stores packet processing rules for setting in the wireless communication terminal 100 and the transfer device 500. The configuration of the packet processing rule is equivalent to the configuration shown in FIG.

  The node communication unit 201 communicates with the wireless communication terminal 100 and the transfer device 500. The node communication unit 201 transfers the status information received from the notification unit 112 of the wireless communication terminal 100 to the calculation unit 203.

  The topology management unit 204 manages the network topology of the network 300 based on the connection relationship of the transfer apparatuses 500 collected via the node communication unit 201.

  The position management unit 205 manages the position of the wireless communication terminal 100 in the network topology of the network 300.

  The packet transfer function management unit 209 manages information transmitted from the access management unit 113 of the wireless communication terminal 100 (for example, the correspondence between the port 104 and the communication interface 105 and the port 104 being used by the wireless communication terminal 100). To do. By the packet transfer function management unit 209, the control device 200 grasps the status of the communication interface 105 and the port 104.

  The calculation unit 203 determines a packet transfer path and packet processing to be executed by the transfer apparatus 500 on the transfer path based on the network topology. That is, the calculation unit 203 calculates a packet transfer route and determines a packet processing rule corresponding to the transfer route.

  The calculation unit 203 determines the RAT to which the wireless communication terminal 100 is connected based on the policy DB 206 and the status information transmitted from the wireless communication terminal 100. The RAT determination method by the calculation unit 203 is the same as that in the above-described embodiment. Further, the configuration of the policy DB 206 may be equivalent to the configuration example shown in FIGS.

  The DB management unit 207 registers the packet processing rule determined by the calculation unit 203 in the processing rule DB 208. The DB management unit 207 transmits a packet processing rule to the transfer device 500 or the wireless communication terminal 100 in response to a packet processing rule transmission request from the transfer device 500 or the wireless communication terminal 100.

  The control message processing unit 202 analyzes a control message (for example, a packet processing rule setting request or a RAT determination request based on status information) received from the transfer device 500 or the wireless communication terminal 100, and corresponds to the control message. Process. In addition, the control message processing unit 202 generates a message (for example, a message for setting a packet processing rule) to be transmitted to the transfer device 500 or the wireless communication terminal 100. In addition, the control message processing unit 202 transmits an instruction to connect to the RAT determined by the calculation unit 203 to the wireless communication terminal 100.

  The calculation unit 203 may use a message for changing the correspondence between the communication interface 105 and the port 104 in order to instruct the wireless communication terminal 100 to connect to the determined RAT. The calculation unit 203 refers to the packet transfer function management unit 209, grasps the correspondence relationship between the communication interface 105 and the port 104, and generates a message for changing the correspondence relationship. The control message processing unit 202 transmits this message to the wireless communication terminal 100. The wireless communication terminal 100 that has received the message associates the port 104 with the communication interface 105 corresponding to the RAT indicated by the message. With this operation, the radio communication terminal 100 can switch the RAT to be connected in accordance with an instruction from the control device 200. Note that the above-described OpenFlow technology has a function of transmitting a message (Port Modification Message) for changing the setting of a switch port. The control device 200 may use this Port Modification Message when instructing the radio communication terminal 100 to switch the RAT.

  The calculation unit 203 may use a packet processing rule corresponding to RAT switching to instruct the wireless communication terminal 100 to connect to the determined RAT. The control message processing unit 202 transmits this packet processing rule to the wireless communication terminal 100. For example, when the RAT is switched for each communication flow, the calculation unit 203 uses a packet processing rule. For example, the packet processing rule defines a processing method for transferring a packet belonging to the Web communication flow to the port 104 associated with the communication interface 105 corresponding to the WLAN.

  FIG. 15 is a sequence diagram illustrating an operation example of the third embodiment. FIG. 15 is an example, and the operation of the present invention is not limited to FIG.

  Referring to FIG. 15, the packet transfer function unit 103 of the wireless communication terminal 100 establishes a link with a predetermined RAT (for example, UTRAN4-1) (step S101). The packet transfer function unit 103 establishes a link with a predetermined RAT, for example, at the start of operation (for example, when the power is turned on). The wireless communication terminal 100 establishes a link with the RAT through the communication interface 105 corresponding to a predetermined RAT. The predetermined RAT is, for example, a communication line of a network operator with whom the wireless communication terminal 100 is contracted, and is a RAT that attempts to establish a link when the wireless communication terminal 100 is activated.

  The packet transfer function unit 103 sets a control channel with the control device 200 via the RAT that has established the link (step S102). The packet transfer function unit 103 communicates with the control device 200 via the control channel. The control channel is, for example, the secure channel 701 of the above-described OpenFlow technology.

  The packet transfer function unit 103 monitors the status information using each communication interface 105 (step S103). The packet transfer function unit 103 may monitor the status information using all the communication interfaces 105, or may monitor the status information using an arbitrarily selected communication interface 105. In the example of FIG. 15, the packet transfer function unit 103 monitors RAT that can be used by the wireless communication terminal 100 as status information. Assume that the packet transfer function unit 103 detects UTRAN4-1 and WLAN4-2 as available RATs.

  Upon receiving the RAT detection result, the packet transfer function unit 103 notifies the control apparatus 200 of information regarding the detected RAT as status information (monitor result) (step S103). In the example of FIG. 15, the packet transfer function unit 103 notifies the control device 200 of information regarding the UTRAN 4-1 and the WLAN 4-2 as status information.

  Based on the received status information, the control device 200 determines the RAT to which the wireless communication terminal 100 is connected (step S106), and instructs the wireless communication terminal 100 to connect to the determined RAT (step S107). In the example of FIG. 15, the control device 200 determines the WLAN 4-2 as the RAT to which the wireless communication terminal 100 is connected.

  The packet transfer function unit 103 switches the communication interface 105 in accordance with an instruction from the control device 200 (step S108). In the example of FIG. 15, the packet transfer function unit 103 switches from the communication interface 105 for UTRAN to the communication interface 105 for WLAN.

  As described above, according to the present embodiment, fine control can be realized using the wireless communication terminal 100 having a simple configuration by applying the OpenFlow technology.

[Fourth Embodiment]
Subsequently, a fourth embodiment of the present invention will be described with reference to the drawings. The communication system of the fourth embodiment is the same as the example shown in FIGS. The configuration examples of the wireless communication terminal and the control device are the same as the examples shown in FIG. 2, FIG. 4, FIG. 12, FIG.

  In the fourth embodiment, the wireless communication terminal activates the communication interface in response to an instruction from the control device. The communication interface stops operating until it is activated based on an instruction from the control device.

  When the communication interface monitors the status information, the wireless communication terminal consumes power. Therefore, if monitoring is frequently performed, the power consumption of the wireless communication terminal increases. However, in the fourth embodiment, since the operation of the communication interface is stopped until instructed by the control device, an excessive monitoring operation by the communication interface can be suppressed. Therefore, power consumption of the wireless communication terminal can be reduced.

  A fourth embodiment will be described with reference to FIG. FIG. 16 is a sequence diagram illustrating an operation example of the fourth embodiment. FIG. 16 is an example, and the operation of the present invention is not limited to FIG.

  In FIG. 16, it is assumed that the wireless communication terminal 1 illustrated in FIG. 2 and the control device 2 illustrated in FIG. 4 are used. However, the wireless communication terminal 100 and the control device 200 described in the third embodiment are used. Also good.

  The wireless communication terminal 1 establishes a link with a predetermined RAT (for example, UTRAN4-1) (step S201). The wireless communication terminal 1 establishes a link with a predetermined RAT, for example, at the start of operation (for example, when the power is turned on). The wireless communication terminal 1 establishes a link with the RAT through the communication interface 10 corresponding to the predetermined RAT. The predetermined RAT is, for example, a communication line of a network operator with whom the wireless communication terminal 1 is contracted, and is a RAT that attempts to establish a link when the wireless communication terminal 1 is activated. In FIG. 16, it is assumed that the predetermined RAT is UTRAN.

  As shown in FIG. 16, the communication interface 10 corresponding to UTRAN is operating (step S202), but the communication interface 10 corresponding to WLAN is not operating. Therefore, the status monitor in the wireless communication terminal 1 is executed via the communication interface 10 corresponding to UTRAN, and the monitor is not executed in the communication interface corresponding to WLAN. In FIG. 16, the wireless communication terminal 1 monitors information regarding the position of the wireless communication terminal 1 by using the communication interface 10 corresponding to UTRAN, for example.

  The wireless communication terminal 1 notifies the control device 2 of information regarding the position of the wireless communication terminal 1 as status information (step S203).

  Based on the received status information, the control device 2 determines the RAT to which the wireless communication terminal 1 is connected (step S204). For example, the control device 2 determines the RAT by the method described with reference to FIG. The control device 2 refers to the policy DB 22 in FIG. 8 based on the information related to the position of the wireless communication terminal 1, and selects the RAT to which the terminal is connected from the RATs available for the wireless communication terminal 1. In FIG. 16, the control device 2 determines the WLAN 4-2 as the RAT to which the wireless communication terminal 1 is connected.

  The control device 2 instructs the wireless communication terminal 1 to start the communication interface 10 corresponding to the determined RAT (step S205). The access management unit 113 of the wireless communication terminal activates the communication interface according to the instruction received from the control device 2 (step S206). For example, the wireless communication terminal 1 activates the communication interface 10 by changing the operation setting “OFF” to “ON”. A communication interface whose operation setting is “off” does not execute an operation such as a status monitor. The communication interface is activated when the operation setting is “ON”. When the operation setting is “ON”, the communication interface can be connected to the status monitor and the RAT. Note that the control device 2 may also instruct to stop activation of a communication interface that is not used by the wireless communication terminal 1.

  The wireless communication terminal 1 connects to the RAT through the activated communication interface 10 (step S207).

  As described above, according to the present embodiment, in addition to the effects of the above-described embodiment, the power consumption of the wireless communication terminal can be reduced. The wireless communication terminal 1 may stop the operation of the unused interface when starting the communication interface instructed by the control device 2. Thereby, the power consumption of the radio | wireless communication terminal 1 can further be reduced.

[Fifth Embodiment]
Subsequently, a fifth embodiment of the present invention will be described with reference to the drawings. The communication system of the fifth embodiment is the same as the example shown in FIGS. Configuration examples of the wireless communication terminal and the control device are the same as the examples shown in FIGS. 2, 4, 12, 13, and 14.

  In the fifth embodiment, the RAT to which the wireless communication terminal is connected is determined based on the characteristics of the wireless communication terminal. The characteristic of the wireless communication terminal is, for example, a movement history or a communication history of the wireless communication terminal. In addition, the characteristics of the wireless communication terminal can be changed as the wireless communication terminal moves.

  With reference to FIG. 17, an operation example in which the control device selects the RAT based on the movement history of the wireless communication terminal will be described. FIG. 17 is a diagram for explaining an example in which the RAT is determined based on the movement history of the wireless communication terminal. The policy DB of the control device manages the movement history of the wireless communication terminal with a database having a structure illustrated in FIG.

  The monitor unit 111 of the wireless communication terminal periodically monitors the movement history of the wireless communication terminal, and the notification unit 112 notifies the control device of the monitoring result as status information. The control device can construct the database illustrated in FIG. 17 in the policy DB based on the received status information.

  From the movement history shown in FIG. 17, for example, the control device can estimate a time period during which the wireless communication terminal continues to stay at a predetermined position. When a wireless communication terminal continues to stay at a predetermined position in a specific time zone, the control device can select a RAT with a low communication fee among RATs that can be used at the predetermined position where the terminal stays in the specific time zone. The wireless communication terminal is instructed to connect to the RAT having the best communication status. For example, the control apparatus estimates a time zone in which an WiFi hot spot is present from the policy DB 22 and instructs the wireless communication terminal to try to connect to the WiFi hot spot during the time zone. With such an operation, the wireless communication terminal can automatically connect to an appropriate RAT.

  Further, from the movement history shown in FIG. 17, the control device can also estimate a time zone in which the position frequently changes at short time intervals, for example. When the wireless communication terminal is moving at high speed by car or train, it is assumed that the position frequently changes at short time intervals. When the RAT that is frequently connected is changed according to the change in position, it is assumed that communication disconnection frequently occurs in the wireless communication terminal. Therefore, when the position frequently changes at short time intervals, the control device can select an RAT that can be continuously used even if the position changes, and can prevent unnecessary communication disconnection in the wireless communication terminal. For example, the control device instructs the wireless communication terminal 1 to use UTRAN that can communicate stably during the morning commute time of weekdays.

  As described above, by selecting RAT based on the movement history of the wireless communication terminal, a comfortable communication environment can be provided to the user of the wireless communication terminal.

  Next, an operation example in which the control device selects the RAT based on the communication history of the wireless communication terminal will be described with reference to FIG. The policy DB of the control device manages the communication history of the wireless communication terminal with a database having a structure illustrated in FIG.

  The monitor unit 111 of the wireless communication terminal periodically monitors the communication history of the wireless communication terminal, and the notification unit 112 notifies the control device of the monitoring result as status information. Based on the received status information, the control device can construct the database illustrated in FIG. 18 in the policy DB.

  From the communication history shown in FIG. 18, for example, the control device can estimate a time zone in which the wireless communication terminal continuously performs communication with a large amount of communication. For example, the control device can estimate a time zone in which the wireless communication terminal continuously performs communication such as operation streaming. The control device, for example, selects a RAT with a wide communication band or a RAT with a low congestion during a time period when the wireless communication terminal performs a large amount of communication. In addition, when the wireless communication terminal continues a large amount of communication for a predetermined period or longer, the control device can select a RAT with a narrow communication band and restrict communication of the wireless communication terminal.

  Further, from the communication history shown in FIG. 18, for example, the control device can estimate a time zone in which the communication amount by the wireless communication terminal is small. In the example of FIG. 18, the time zone in which the communication flow is “None” is a time zone in which there is no communication by the wireless communication terminal. For example, the control device instructs the wireless communication terminal to stop the operation of the communication interface corresponding to the predetermined RAT in a time zone when the communication amount by the wireless communication terminal is small. With this operation, unnecessary operations such as a RAT scan operation by the communication interface can be suppressed, so that the power consumption of the wireless communication terminal can be reduced.

  As described above, according to the present embodiment, it is possible to instruct the selection of the RAT suitable for the user's access environment estimated from the movement history, the communication history, and the like of the wireless communication terminal, and the interface power control.

[Sixth Embodiment]
Subsequently, a sixth embodiment of the present invention will be described with reference to the drawings. The communication system of the sixth embodiment is the same as the example shown in FIGS.

  In the sixth embodiment, the communication interface is switched according to an instruction from the control device 2 when the consent of the user of the wireless communication terminal is obtained. It is also assumed that the communication interface specified by the instruction from the control device 2 is contrary to the intention of the user of the wireless communication terminal. In the sixth embodiment, the communication interface is switched in consideration of the intention of the user of the wireless communication terminal.

  Although the sixth embodiment has been described with reference to the wireless communication terminal 1 illustrated in FIG. 2 and the control device 2 illustrated in FIG. 4, the wireless communication terminal and the control device are described in the third embodiment. The configuration may be also possible.

  FIG. 19 is a diagram illustrating a configuration example of the policy DB 22 of the present embodiment. The policy DB 22 stores, for each identifier of the wireless communication terminal 1, consent information (Admission Information) indicating whether or not the user of each wireless communication terminal 1 agrees to switch the communication interface according to an instruction from the control device 2. To do. The identifier of the wireless communication terminal 1 is, for example, an IMSI (International Mobile Subscriber Identity).

  For example, the control device 2 obtains consent information from the wireless communication terminal 1 in advance. For example, the communication operator registers consent information in the policy DB 22 based on a contract with the user of the wireless communication terminal 1. For example, the user of the wireless communication terminal 1 may notify the control device 2 of the consent information using the wireless communication terminal 1. You may comprise so that the consent information of policy DB22 can be suitably changed by the user of the radio | wireless communication terminal 1. FIG.

  When the user agrees (for example, when the agreement information is “Yes”), the control unit 21 of the control device 2 instructs the radio communication terminal 1 which RAT should be used, and instructs the radio communication terminal 1. Command the communication interface. The control unit 21 does not transmit an instruction to the wireless communication terminal 1 when the user does not agree (for example, when the consent information is “No”).

  An example has been shown in which the control device 2 determines whether to instruct the wireless communication terminal 1 based on the consent information. However, this is merely an example, and the wireless communication terminal 1 may determine whether to follow the instruction received from the control device 2.

  For example, when receiving an instruction from the control device 2, the access management unit 113 of the wireless communication terminal 1 displays a dialog for confirming consent to the user on the display of the wireless communication terminal 1. The user inputs whether to agree to the switching of the communication interface according to the dialog. The access management unit 113 of the wireless communication terminal 1 switches the communication interface according to an instruction from the control device 2 when the user agrees.

  As described above, according to the present embodiment, RAT switching can be realized in consideration of the user's intention.

As mentioned above, although each embodiment of the present invention was described, the present invention is not limited to each above-mentioned embodiment, and modification, substitution, and adjustment are possible. In addition, the present invention can be implemented by arbitrarily combining the embodiments. That is, the present invention includes various variations and modifications that can be made by those skilled in the art according to the entire disclosure including the claims and the technical idea.
Finally, a preferred form of the invention is summarized.
[First embodiment]
(Refer to the wireless communication terminal according to the first viewpoint)
[Second form]
In the wireless communication terminal of the first form,
The communication means is a wireless communication terminal that activates a communication interface corresponding to the instructed wireless access method in accordance with an instruction from the control device, and communicates using the activated communication interface.
[Third embodiment]
In the wireless communication terminal of the first or second form,
Further, a wireless communication terminal including means for notifying the control device of the status of the wireless communication terminal that changes as the wireless communication terminal moves.
[Fourth form]
In the wireless communication terminal according to any one of the first to third aspects,
The wireless communication terminal according to claim 1, further comprising means for switching a communication interface for each communication flow based on an instruction transmitted from the control device.
[Fifth embodiment]
In the wireless communication terminal according to any one of the first to fourth aspects,
Further, a wireless communication terminal including means for stopping at least one operation of the communication interface based on an instruction from the control device.
[Sixth embodiment]
In the wireless communication terminal according to any one of the first to fifth aspects,
The means for receiving further receives, from the control device, information related to a connection device for connection by a wireless access method determined by the control device,
The communication means is a wireless communication terminal that communicates via the connection device by a communication interface corresponding to the instructed wireless access method.
[Seventh form]
In the wireless communication terminal according to any one of the first to sixth aspects,
The means for receiving receives an instruction including a radio access method determined by the control device based on information on a position of the radio communication terminal from the control device,
The means for communicating is a wireless communication terminal for communicating using a communication interface corresponding to the instructed wireless access method.
[Eighth form]
In the wireless communication terminal according to any one of the first to seventh aspects,
The receiving means is a wireless communication terminal that receives an instruction including a wireless access method determined based on at least one of a movement history of the wireless communication terminal or a communication history of the wireless communication terminal.
[Ninth Embodiment]
In the wireless communication terminal according to any one of the first to eighth aspects,
The communication means is a wireless communication terminal that communicates using a communication interface corresponding to an instruction from the control device when a user of the wireless communication terminal agrees.
[Tenth embodiment]
In the wireless communication terminal according to any one of the first to ninth aspects,
Further, a packet processing for requesting a processing rule for processing a packet belonging to a predetermined communication flow to the control device, and processing the packet according to the processing rule set by the control device in response to the request Having means,
The packet processing means is a wireless communication terminal that receives a processing rule defining switching of a communication interface according to a communication flow from the control device and processes a packet according to the processing rule.
[Eleventh form]
(Refer to the communication system according to the second viewpoint)
[Twelfth embodiment]
In a communication system according to an eleventh aspect,
The means for communicating of the wireless communication terminal is:
A communication system that activates a communication interface corresponding to the instructed wireless access method in accordance with an instruction from the control device, and performs communication using the activated communication interface.
[13th form]
In the communication system of the eleventh or twelfth aspect,
The wireless communication terminal is
Further, a communication system including means for notifying the control device of a status of the wireless communication terminal that changes as the wireless communication terminal moves.
[14th form]
In the communication system according to any one of the eleventh to thirteenth aspects,
The control device includes:
Means for determining, for each communication flow, a wireless access method to which the wireless communication terminal is connected;
The wireless communication terminal further includes:
A communication system including means for switching a communication interface for each communication flow based on an instruction transmitted from the control device.
[15th form]
In the communication system according to any one of the eleventh to fourteenth aspects,
The wireless communication terminal further includes:
A communication system including means for stopping at least one operation of a communication interface not used for communication based on an instruction transmitted from the control device.
[Sixteenth embodiment]
In the communication system according to any one of the eleventh to fifteenth aspects,
The control device further includes:
Means for transmitting to the wireless communication terminal information relating to a connection device for connecting to the determined wireless access method;
The means for communicating of the wireless communication terminal is:
A communication system for communicating via the connection device by a communication interface corresponding to the instructed wireless access method.
[17th form]
In the communication system according to any one of the eleventh to sixteenth aspects,
The control device further includes:
Means for determining a wireless access scheme based on information regarding the location of the wireless communication terminal;
The means for receiving of the wireless communication terminal is:
Receiving an instruction including a radio access method determined by the control device;
The means for communicating of the wireless communication terminal is:
A communication system for performing communication using a communication interface corresponding to the instructed wireless access method.
[18th form]
In the communication system according to any one of the eleventh to seventeenth aspects,
The control device further includes:
Means for determining a wireless access scheme based on at least one of a movement history of the wireless communication terminal or a communication history of the wireless communication terminal;
The means for receiving of the wireless communication terminal is:
Receiving an instruction including a radio access method determined by the control device;
The means for communicating of the wireless communication terminal is:
A communication system for performing communication using a communication interface corresponding to the instructed wireless access method.
[19th form]
In the communication system according to any one of the eleventh to eighteenth aspects,
The means for communicating of the wireless communication terminal is:
A communication system using a communication interface corresponding to an instruction of the control device when a user agrees.
[20th form]
In the communication system according to any one of the eleventh to nineteenth aspects,
The wireless communication terminal is
A packet processing means for requesting a processing rule for processing a packet belonging to a predetermined communication flow to the control device and processing the packet according to the processing rule set by the control device in response to the request; Have
A communication system that receives a processing rule defining switching of a communication interface according to a communication flow from the control device and processes a packet according to the processing rule.
[21st form]
(Refer to the control device from the third viewpoint)
[Twenty-second embodiment]
In the control device of the twenty-first aspect,
Further, a control device including means for transmitting an instruction to activate a communication interface corresponding to the determined wireless access method to the wireless communication terminal.
[23rd form]
In the control device of the 21st or 22nd form,
Further, a control device including means for determining a wireless access method to which the wireless communication terminal is connected for each communication flow.
[24th form]
In the control device according to any one of the 21st to 23rd aspects,
Further, a control device including means for transmitting to the wireless communication terminal an instruction to stop at least one operation of a communication interface corresponding to a wireless access method not used for communication.
[25th form]
In the control device according to any one of the 21st to 24th aspects,
The transmission means is a control device that transmits information related to a connection device for connecting to the determined wireless access scheme to the wireless communication terminal.
[26th form]
In the control device according to any one of the 21st to 25th aspects,
The determining means is a control device for determining a radio access scheme used by the radio communication terminal based on information on a position of the radio communication terminal.
[27th form]
In the control device according to any one of the 21st to 26th aspects,
The control means for determining the radio access method used by the radio communication terminal based on at least one of a movement history of the radio communication terminal or a communication history of the radio communication terminal.
[Twenty-eighth embodiment]
In the control device according to any one of the twenty-first to twenty-seventh aspects,
The transmission means is a control device that transmits the instruction to the wireless communication terminal when a user of the wireless communication terminal agrees.
[29th form]
In the control device according to any one of the 21st to 28th aspects,
A packet processing means for requesting a processing rule for processing a packet belonging to a predetermined communication flow to the control device and processing the packet according to the processing rule set by the control device in response to the request; For wireless communication terminals
A control device that transmits a processing rule that specifies switching of a communication interface according to a communication flow.
[Thirty Embodiment]
(Refer to the communication method from the fourth viewpoint above.)
[31st form]
(Refer to the program from the fifth viewpoint above)

  Each disclosure of the above-mentioned patent document and non-patent document is incorporated herein by reference. Within the scope of the entire disclosure (including claims) of the present invention, the embodiments and examples can be changed and adjusted based on the basic technical concept. Further, various combinations or selections of various disclosed elements (including each element of each claim, each element of each embodiment or example, each element of each drawing, etc.) within the scope of the claims of the present invention. Is possible. That is, the present invention of course includes various variations and modifications that could be made by those skilled in the art according to the entire disclosure including the claims and the technical idea.

1 Wireless communication terminal 2 Control device 3 Network 4 RAT
4-1 UTRAN
4-2 to 4-4 WLAN
10 communication interface 11 control unit 12 communication unit 20 communication unit 21 control unit 22 policy DB
100 wireless communication terminal 101 application unit 102 protocol stack unit 103 packet transfer function unit 104 port 105 communication interface 111 monitor unit 112 notification unit 113 access management unit 130 communication unit 131 processing unit 132 access management unit 133 access management DB
134 Processing Rule Management Unit 135 Processing Rule DB
136 Search Unit 137 Processing Execution Unit 200 Control Device 201 Node Communication Unit 202 Control Message Processing Unit 203 Calculation Unit 204 Topology Management Unit 205 Location Management Unit 206 Policy DB
207 DB management unit 208 processing rule DB
209 Packet transfer function management unit 300 Network 500 Transfer device 600 OpenFlow Switch
601 Flow Table
700 OpenFlow Controller
701 Secure Channel

Claims (28)

A plurality of communication interfaces each corresponding to at least one of a plurality of radio access schemes;
An instruction including a matching rule for identifying a communication flow, and a processing rule indicating that a packet belonging to the communication flow is transferred to a first communication interface corresponding to a wireless access method determined by a control device, First means for receiving from the control device;
Second means capable of activating the first communication interface corresponding to the instruction received by the first means via a second communication interface in a communicable state;
A third means capable of transferring the packet to the second communication interface based on the instruction;
Including wireless communication terminals.   The wireless communication terminal according to claim 1, wherein the third means includes means for switching a communication interface for each communication flow based on an instruction transmitted from the control device.   The wireless communication terminal according to claim 1, further comprising means for stopping at least one operation of the communication interface based on an instruction from the control device. The first means further receives, from the control device, information related to a connection device for connection by a wireless access method determined by the control device;
4. The wireless communication terminal according to claim 1, wherein the third means communicates via the connection device through a communication interface corresponding to the instructed wireless access method. 5. The first means receives, from the control device, an instruction including a wireless access method determined by the control device based on information on a position of the wireless communication terminal;
The wireless communication terminal according to claim 1, wherein the third means performs communication using a communication interface corresponding to the instructed wireless access method.   The said 1st means receives the instruction | indication including the radio | wireless access system determined based on at least 1 of the movement history of the said radio | wireless communication terminal, or the communication history of the said radio | wireless communication terminal. The wireless communication terminal described.   The wireless communication terminal according to claim 1, wherein the third means communicates using a communication interface corresponding to an instruction from the control device when a user of the wireless communication terminal agrees. . Further, a packet processing for requesting a processing rule for processing a packet belonging to a predetermined communication flow to the control device, and processing the packet according to the processing rule set by the control device in response to the request Having means,
8. The radio according to claim 1, wherein the packet processing unit receives a processing rule defining switching of a communication interface according to a communication flow from the control device, and processes the packet according to the processing rule. 9. Communication terminal. A control device for controlling a wireless access method to which a wireless communication terminal is connected;
A plurality of communication interfaces each corresponding to at least one of a plurality of radio access schemes;
An instruction including a matching rule for identifying a communication flow, and a processing rule indicating that a packet belonging to the communication flow is transferred to a first communication interface corresponding to a wireless access method determined by a control device, First means for receiving from the control device;
Second means capable of activating the first communication interface corresponding to the instruction received by the first means via a second communication interface in a communicable state;
A wireless communication terminal comprising: a third means capable of transferring the packet to the communication interface corresponding to the wireless access method determined by the control device based on the instruction;
A communication system including: The wireless communication terminal is
The communication system according to claim 9, further comprising means for notifying the control device of a status of the wireless communication terminal that changes as the wireless communication terminal moves. The control device includes:
Means for determining, for each communication flow, a wireless access method to which the wireless communication terminal is connected;
The communication system according to claim 9 or 10, wherein the third means includes means for switching a communication interface for each communication flow based on an instruction transmitted from the control device. The wireless communication terminal further includes:
The communication system according to any one of claims 9 to 11, comprising means for stopping at least one operation of a communication interface that is not used for communication based on an instruction transmitted from the control device. The control device further includes:
Means for transmitting to the wireless communication terminal information relating to a connection device for connecting to the determined wireless access method;
The third means includes
The communication system according to claim 9, wherein communication is performed via the connection device by a communication interface corresponding to the instructed wireless access method. The control device further includes:
Means for determining a wireless access scheme based on information regarding the location of the wireless communication terminal;
The first means includes
Receiving an instruction including a radio access method determined by the control device;
The third means includes
The communication system according to claim 9, wherein communication is performed using a communication interface corresponding to the instructed radio access method. The control device further includes:
Means for determining a wireless access scheme based on at least one of a movement history of the wireless communication terminal or a communication history of the wireless communication terminal;
The first means includes
Receiving an instruction including a radio access method determined by the control device;
The third means includes
The communication system according to claim 9, wherein communication is performed using a communication interface corresponding to the instructed radio access method. The third means includes
The communication system according to any one of claims 9 to 15, wherein a communication interface corresponding to an instruction of the control device is used when the user agrees. The wireless communication terminal is
A packet processing means for requesting a processing rule for processing a packet belonging to a predetermined communication flow to the control device and processing the packet according to the processing rule set by the control device in response to the request; Have
The communication system according to any one of claims 9 to 16, wherein a processing rule specifying switching of a communication interface according to a communication flow is received from the control device, and a packet is processed according to the processing rule. A first means for receiving the status of the wireless communication terminal that changes as the wireless communication terminal moves;
A second means for determining a wireless access method to which the wireless communication terminal is connected;
An instruction including a collation rule for identifying a communication flow and a processing rule indicating that a packet belonging to the communication flow is transferred to the first communication interface corresponding to the determined radio access scheme can be communicated A third means for transmitting to the wireless communication terminal via the second communication interface which is in a state of being instructed to start the first communication interface to the wireless communication terminal;
Control device including.   19. The control device according to claim 18, further comprising means for transmitting an instruction to activate a communication interface corresponding to the determined wireless access method to the wireless communication terminal.   The control device according to claim 18 or 19, wherein the second means includes means for determining a wireless access method to which the wireless communication terminal is connected for each communication flow.   21. The control device according to claim 18, further comprising means for transmitting a stop instruction to stop at least one operation of a communication interface corresponding to a wireless access method not used for communication to the wireless communication terminal. .   The control device according to any one of claims 18 to 21, wherein the third means transmits information on a connection device for connecting to the determined wireless access scheme to the wireless communication terminal.   23. The control device according to claim 18, wherein the second means determines a radio access method used by the radio communication terminal based on information on a position of the radio communication terminal.   The said 2nd means determines the radio | wireless access system which the said radio | wireless communication terminal uses based on at least one of the movement history of a radio | wireless communication terminal, or the communication history of a radio | wireless communication terminal. The control device described.   The control device according to any one of claims 18 to 23, wherein the third means transmits the instruction to the wireless communication terminal when a user of the wireless communication terminal agrees. A packet processing means for requesting a processing rule for processing a packet belonging to a predetermined communication flow to the control device and processing the packet according to the processing rule set by the control device in response to the request; For wireless communication terminals
The control device according to any one of claims 18 to 25, which transmits a processing rule that defines switching of a communication interface according to a communication flow. A communication method by a wireless communication terminal including a plurality of communication interfaces corresponding to at least one of a plurality of wireless access methods,
An instruction including a matching rule for identifying a communication flow, and a processing rule indicating that a packet belonging to the communication flow is transferred to a first communication interface corresponding to a wireless access method determined by a control device, Received from the control unit,
Activating the first communication interface corresponding to the instruction received by the first means via the second communication interface in a communicable state;
Forwarding the packet to the second communication interface based on the instruction;
A communication method characterized by the above. In a wireless communication terminal including a plurality of communication interfaces corresponding to at least one of a plurality of wireless access methods,
An instruction including a matching rule for identifying a communication flow, and a processing rule indicating that a packet belonging to the communication flow is transferred to a first communication interface corresponding to a wireless access method determined by a control device, Processing received from the control device;
Processing for activating the first communication interface corresponding to the instruction received by the first means via the second communication interface in a communicable state;
A program for executing the process of transferring the packet to the second communication interface based on the instruction.

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